CN104221416A - Frequency hopping sequence planning method and device - Google Patents

Abstract

The present invention discloses a frequency hopping sequence planning method and device, and relates to the communication field. The frequency hopping sequence planning method and device emable the logic cells in a super cell to share time slot resources of channel resources. The scheme of the frequency hopping sequence planning method comprises: using a frequency hopping sequence planning device to determine the frame numbers and the offset values of the frequency hopping sequences of the logic cells in the super cell which comprises at least two logic cells, computing offset value variables of the logic cells according to the frame numbers of the logic cells, correcting the offset values of the logic cells according to the offset value variables of the frequency hopping sequence, and sending the obtained corrected frequency hopping sequence offset values to a base station control device, so as to enable the base station control device to configure the corrected frequency hopping sequence offset values to corresponding logic cells. The frequency hopping planning method and device are used for frequency hopping planning.

Description

A kind of frequency hop sequences planing method and device

Technical field

The present invention relates to the communications field, relate in particular to a kind of frequency hop sequences planing method and device.

Background technology

At present, GSM (Global System for Mobile communication, global system for mobile communications) merges community frequency merging is carried out in a plurality of communities, and the frequency quantity that GSM is used is reduced, and coverage remains unchanged, improved spectrum efficiency.Adopt the different districts of identical frequency to form a super community.

Because super community need to, based on synchronizing network, need space division multiplexing between a plurality of sectors in super community.And can exist between the subscriber equipment of space division multiplexing, continue stronger co-channel interference, SACCH (Slow Associated Control Channel, slow associated control channel) can continue collision, causes cutting off rate severe exacerbation.By being a plurality of logic district by super cell configuration, can allow same BCCH (the Broadcast Control Channel of super community, Broadcast Control Channel) in, under co-frequency co-time slot, the subscriber equipment of space division multiplexing accesses different logic district, due to each logic district corresponding frame number (Frame Number, FN) difference, can effectively avoid the lasting collision problem of the slow associated control channel that exists between the subscriber equipment of space division multiplexing in super community.

Yet, due to each logic district corresponding frame number (Frame Number, FN) difference, can have influence in super community different time-gap (Timeslot under same sector, TS) frequency hop sequences, so, the channel resource that in super community, Different Logic community is used need to strictly separate on time slot, need to all channel resources of super community be subdivided into a plurality of channel resource pools according to time slot, each logic district exclusively enjoys a channel resource pool, the same channel resource pool of time interval resource cannot realize in to(for) the different subscriber equipment in Different Logic community is multiplexing, therefore the channel resource utilization ratio of super community is lower.

Summary of the invention

Embodiments of the invention provide a kind of frequency hop sequences planing method and device, can make the time interval resource in each logic district shared channel resources in super community, thereby have improved the channel resource utilance of super community.

For achieving the above object, embodiments of the invention adopt following technical scheme:

First aspect, provides a kind of frequency hop sequences device for planning, comprising:

Acquiring unit, for determining frame number (Frame Number, FN) and the frequency hop sequences side-play amount (Mobile Allocation Index Offset, MAIO) of Zhong Ge logic district, super community, described super community comprises at least two logic district.

Variable unit, for the frame number of described at least two logic district of determining according to described acquiring unit, the frequency hop sequences side-play amount variable (Delta Mobile Allocation Index Offset, Δ MAIO) of at least two logic district described in calculating.

Amending unit, frequency hop sequences side-play amount variable for described at least two logic district of calculating according to described variable unit is revised the frequency hop sequences side-play amount of described at least two logic district, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

Be connected unit, for the correction frequency hop sequences side-play amount that sends described at least two logic district that described amending unit obtains to base station control device, so that described base station control device configures the correction frequency hop sequences side-play amount of described at least two logic district to corresponding logic district.

In conjunction with first aspect, in the possible implementation of the first, described variable unit is specifically for the absolute value that calculates difference between the frame number of the logic district of frame number minimum in the frame number of described at least two logic district that acquiring unit determines and described super community, obtain the first frame number poor, and using described the first frame number poor as described in the frequency hop sequences side-play amount variable of at least two logic district.

In conjunction with first aspect, in the possible implementation of the second, described frequency hop sequences device for planning, comprising:

Described acquiring unit is also for determining the frequency quantity of described super community.

Described variable unit, comprising:

The first variable subelement, the absolute value for difference between the frame number of at least two logic district described in calculating and the frame number of the logic district of described super community frame number minimum, obtains the first frame number poor.

The second variable subelement, be used for the frequency quantity of the poor described super community of determining divided by described acquiring unit of described first frame number of described the first variable subunit computes, and the frequency hop sequences side-play amount variable using the remainder obtaining as described at least two logic district.

In conjunction with any in first aspect and the first thereof or the possible implementation of the second, in the third possible implementation, described amending unit, specifically for the corresponding addition of frequency hop sequences side-play amount of described at least two logic district that the frequency hop sequences side-play amount variable of described at least two logic district that described variable unit is calculated is definite with described acquiring unit, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

In conjunction with first aspect, in the 4th kind of possible implementation, described frequency hop sequences device for planning, also comprises:

Described acquiring unit, also for determining the frequency quantity of described super community.

Frame number side-play amount unit, for the frame number of described at least two logic district of determining according to described acquiring unit, the frame number side-play amount (Frame Number offset, FN offset) of at least two logic district described in calculating.

Sequence number unit, for the frequency hop sequences side-play amount of the frame number side-play amount of described at least two logic district of calculating according to described frame number side-play amount unit, described at least two logic district that described acquiring unit is determined, the frequency quantity of the described super community that the frequency hop sequences side-play amount variable of described at least two logic district that described variable unit calculates and described acquiring unit are determined, the frequency hop sequences of at least two logic district described in calculating.

Described linking unit, also for the frequency hop sequences that sends described at least two logic district of calculating described sequence number unit to base station control device, so that described base station control device configures the frequency hop sequences of described at least two logic district to corresponding logic district.

In conjunction with the 4th kind of possible implementation of first aspect, in the 5th kind of possible implementation, described frame number side-play amount unit specifically for:

Calculate the absolute value of difference between the frame number of the logic district of frame number maximum in the frame number of described at least two logic district that described acquiring unit determines and described super community, obtain the second frame number poor, and using described the second frame number poor as described in the frame number side-play amount of at least two logic district.

In conjunction with any in first aspect and the 4th kind or the 5th kind of possible implementation, in the 6th kind of possible implementation, described sequence number unit, comprising:

First ray work song unit, for the frame number side-play amount of described at least two logic district that described frame number side-play amount unit is calculated, the frequency hop sequences side-play amount of described at least two logic district that described acquiring unit is determined and the frequency hop sequences side-play amount variable of described at least two logic district of described variable unit calculating and as the frequency parameter of described at least two logic district.

The second sequence number subelement, for the frequency quantity divided by the definite described super community of described acquiring unit by the described frequency parameter of described First ray subunit computes, and the frequency hop sequences using the remainder obtaining as described at least two logic district.

In conjunction with the 4th kind of possible implementation of first aspect, in the 7th kind of possible implementation, described frequency hop sequences device for planning also comprises:

Dispensing unit, configures at least two logic district for the frame number according to predetermined and time slot in super community.

Described acquiring unit is also for determining the frame number of described at least two logic district of described dispensing unit configuration.

Allocation units are described user equipment allocation channel for the frequency hop sequences of described at least two logic district of calculating according to described sequence number unit.

Second aspect, provides a kind of frequency hop sequences device for planning, comprising: FPDP, processor, memory and bus, and wherein, described FPDP, described processor and described memory interconnect by described bus,

Wherein, described FPDP, for determining frame number and the frequency hop sequences side-play amount of Zhong Ge logic district, super community, described super community comprises at least two logic district.

Described processor, for the frame number of described at least two logic district of determining according to described FPDP, the frequency hop sequences side-play amount variable of at least two logic district described in calculating.

Described processor, also for the frequency hop sequences side-play amount variable of described at least two logic district of calculating according to described processor, the frequency hop sequences side-play amount of described at least two logic district is revised the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

Described FPDP, also for the correction frequency hop sequences side-play amount that sends described at least two logic district that described processor obtains to base station control device, so that described base station control device configures the correction frequency hop sequences side-play amount of described at least two logic district to corresponding logic district.

In conjunction with second aspect, in the possible implementation of the first, described processor is specifically for the absolute value that calculates difference between the frame number of the logic district of frame number minimum in the frame number of described at least two logic district that described FPDP determines and described super community, obtain the first frame number poor, and using described the first frame number poor as described in the frequency hop sequences side-play amount variable of at least two logic district.

In conjunction with second aspect, in the possible implementation of the second, described frequency hop sequences device for planning, comprising:

Described FPDP is also for determining the frequency quantity of described super community.

Described processor, the absolute value specifically for difference between the frame number of the logic district of frame number minimum in the frame number of at least two logic district described in calculating and described super community, obtains the first frame number poor.

Described processor, the also poor frequency quantity divided by the definite described super community of described FPDP of described the first frame number specifically for described processor is calculated, and the frequency hop sequences side-play amount variable using the remainder obtaining as described at least two logic district.

In conjunction with any in second aspect and the first thereof or the possible implementation of the second, in the third possible implementation, described processor, specifically for the corresponding addition of frequency hop sequences side-play amount of described at least two logic district that the frequency hop sequences side-play amount variable of described at least two logic district that described processor is calculated is definite with described FPDP, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

In conjunction with second aspect, in the 4th kind of possible implementation, described frequency hop sequences device for planning, also comprises:

Described FPDP, also for determining the frequency quantity of described super community.

Described processor, for the frame number of described at least two logic district of determining according to described FPDP, the frame number side-play amount of at least two logic district described in calculating.

Described processor, for the frequency hop sequences side-play amount of the frame number side-play amount of described at least two logic district of calculating according to described processor, described at least two logic district that described FPDP is determined, the frequency quantity of the described super community that the frequency hop sequences side-play amount variable of described at least two logic district that described processor calculates and described FPDP are determined, the frequency hop sequences of at least two logic district described in calculating.

Described FPDP, also for the frequency hop sequences that sends described at least two logic district that described processor calculates to base station control device, so that described base station control device configures the frequency hop sequences of described at least two logic district to corresponding logic district.

The 4th kind of possible implementation in conjunction with second aspect, in the 5th kind of possible implementation, the absolute value of difference between the frame number of the logic district of frame number maximum in the described super community that described processor configures specifically for: the frame number that calculates the described logic district that described FPDP determines and described dispensing unit, obtain the second frame number poor, and using described the second frame number poor as described in the frame number side-play amount of at least two logic district.

In conjunction with any in second aspect and the 4th kind or the 5th kind of possible implementation, in the 6th kind of possible implementation, described processor, also specifically for the frame number side-play amount of described at least two logic district that described processor is calculated, the frequency hop sequences side-play amount of described at least two logic district that described FPDP is determined and the frequency hop sequences side-play amount variable of described at least two logic district of described processor calculating and as the frequency parameter of described at least two logic district.

Described processor, the frequency quantity of the described super community of also determining divided by described FPDP specifically for the described frequency parameter that described processor is calculated, and the frequency hop sequences using the remainder obtaining as described at least two logic district.

In conjunction with the 4th kind of possible implementation of second aspect, in the 7th kind of possible implementation, described processor, also configures at least two logic district for the frame number according to predetermined and time slot in super community.

Described FPDP is also for determining the frame number of described at least two logic district of described processor configuration.

Described processor, also the frequency hop sequences at least two logic district described in the described frequency hop sequences calculating according to described processor is described user equipment allocation channel.

The third aspect, provides a kind of frequency hop sequences planing method, comprising:

Frequency hop sequences device for planning is determined frame number and the frequency hop sequences side-play amount of Zhong Ge logic district, super community, and described super community comprises at least two logic district.

Described frequency hop sequences device for planning is according to the frame number of described at least two logic district, the frequency hop sequences side-play amount variable of at least two logic district described in calculating.

Described frequency hop sequences device for planning is revised the frequency hop sequences side-play amount of described at least two logic district according to the frequency hop sequences side-play amount variable of described at least two logic district, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

Described in described frequency hop sequences device for planning sends, the correction frequency hop sequences side-play amount of at least two logic district is to base station control device, so that described base station control device configures the correction frequency hop sequences side-play amount of described at least two logic district to corresponding logic district.

In conjunction with the third aspect, in the possible implementation of the first, described frequency hop sequences device for planning is according to the frame number of the frame number of described at least two logic district and described logic district, and the frequency hop sequences side-play amount variable of at least two logic district described in calculating, specifically comprises:

The absolute value of difference between the frame number of the logic district of frame number minimum in the frame number of at least two logic district and described super community described in described frequency hop sequences device for planning calculates, obtain the first frame number poor, and using described the first frame number poor as described in the frequency hop sequences side-play amount variable of at least two logic district.

In conjunction with the third aspect, in the possible implementation of the second, described frequency hop sequences planing method, also comprises:

Described frequency hop sequences device for planning is determined the frequency quantity of described super community.

Described frequency hop sequences device for planning is according to the frame number of the frame number of described at least two logic district and described logic district, and the frequency hop sequences side-play amount variable of at least two logic district described in calculating, specifically comprises:

Described in described frequency hop sequences device for planning calculates, the absolute value of difference between the frame number of the logic district of frame number minimum in the frame number of at least two logic district and described super community, obtains the first frame number poor.

Described frequency hop sequences device for planning is by the poor frequency quantity divided by described super community of described the first frame number, and the frequency hop sequences side-play amount variable using the remainder obtaining as described at least two logic district.

In conjunction with any in the third aspect and the first thereof or the possible implementation of the second, in the third possible implementation, described frequency hop sequences device for planning is according to the frame number of described at least two logic district, the frequency hop sequences side-play amount variable of at least two logic district described in calculating, specifically comprises:

Described frequency hop sequences device for planning is the frequency hop sequences side-play amount variable of logic district and the corresponding addition of frequency hop sequences side-play amount of described at least two logic district of subscriber equipment access, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

In conjunction with the third aspect, in the 4th kind of possible implementation, described frequency hop sequences planing method, also comprises:

Described frequency hop sequences device for planning is determined the frequency quantity of described super community.

Described frequency hop sequences device for planning is according to the frame number of the logic district of the frame number of described at least two logic district and subscriber equipment access, the frame number side-play amount of at least two logic district described in calculating.

Described frequency hop sequences device for planning is according to the frequency quantity of the frequency hop sequences side-play amount variable of the frequency hop sequences side-play amount of the frame number side-play amount of described at least two logic district, described at least two logic district, described at least two logic district and described super community, the frequency hop sequences of at least two logic district described in calculating.

Described in described frequency hop sequences device for planning sends, the frequency hop sequences of at least two logic district is to base station control device, so that described base station control device configures the frequency hop sequences of described at least two logic district to corresponding logic district.

In conjunction with the 4th kind of possible implementation of the third aspect, in the 5th kind of possible implementation, described frequency hop sequences device for planning is according to the frame number of described at least two logic district, and the frame number side-play amount of at least two logic district described in calculating, specifically comprises:

The absolute value of difference between the frame number of the logic district of frame number maximum in the frame number of at least two logic district and described super community described in described frequency hop sequences device for planning calculates, obtain the second frame number poor, and using described the second frame number poor as described in the frame number side-play amount of at least two logic district.

In conjunction with any in the third aspect and the 4th kind or the 5th kind of possible implementation, in the 6th kind of possible implementation, described frequency hop sequences device for planning is according to the frequency quantity of the frequency hop sequences side-play amount variable of the frequency hop sequences side-play amount of the frame number side-play amount of described at least two logic district, described at least two logic district, described at least two logic district and described super community, the frequency hop sequences of at least two logic district described in calculating, comprising:

Described frequency hop sequences device for planning using the frequency hop sequences side-play amount variable of the frequency hop sequences side-play amount of the frame number side-play amount of described at least two logic district, described at least two logic district and described at least two logic district and as the frequency parameter of described at least two logic district.

Described frequency hop sequences device for planning is the frequency quantity divided by described super community by described frequency parameter, and the frequency hop sequences using the remainder obtaining as described at least two logic district.

In conjunction with the 4th kind of possible implementation of the third aspect, in the 7th kind of possible implementation, described frequency hop sequences planing method also comprises:

Described frequency hop sequences device for planning configures at least two logic district according to predetermined frame number and time slot in super community.

Described frequency hop sequences device for planning is also for determining the frame number of described at least two logic district of described frequency hop sequences device for planning configuration.

Described frequency hop sequences device for planning is described user equipment allocation channel according to the frequency hop sequences of described at least two logic district.

Frequency hop sequences planing method and device that the embodiment of the present invention provides, can be by introducing the method for frequency hop sequences side-play amount variable, revise the frequency hop sequences side-play amount of each logic district in super community, thereby make base station control device revised described correction frequency hop sequences side-play amount can be distributed to each corresponding logic district, the frequency hop sequences that makes Different Logic community can sequential loop and the frequency hopping collision problem that do not access terminal between (subscriber equipment), thereby make at least one time interval resource in each logic district shared channel resources in super community, and then improved the channel resource utilance of super community.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The structural representation of a kind of frequency hop sequences device for planning that Fig. 1 provides for embodiments of the invention;

The structural representation of a kind of frequency hop sequences device for planning that Fig. 2 provides for an alternative embodiment of the invention;

The structural representation of a kind of frequency hop sequences device for planning that Fig. 3 provides for another embodiment of the present invention;

The structural representation of a kind of frequency hop sequences device for planning that Fig. 4 provides for another embodiment of the present invention;

The structural representation of a kind of frequency hop sequences device for planning that Fig. 5 provides for another one embodiment of the present invention;

The structural representation of a kind of frequency hop sequences device for planning that Fig. 6 provides for embodiments of the invention;

The schematic flow sheet of a kind of frequency hop sequences planing method that Fig. 7 provides for embodiments of the invention;

The schematic flow sheet of a kind of frequency hop sequences planing method that Fig. 8 provides for another embodiment of the present invention;

The distribution schematic diagram of a kind of logic district that Fig. 9 provides for embodiments of the invention;

The distribution schematic diagram of the another kind of logic district that Figure 10 provides for embodiments of the invention;

The schematic diagram of a kind of frequency that Figure 11 provides for embodiments of the invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, rather than whole embodiment.Embodiment based in the present invention, those of ordinary skills, not making the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.

Embodiments of the invention provide a kind of frequency hop sequences device for planning, shown in Fig. 1, are applied to the communications field, specifically for frequency hop sequences planning, comprise following structure:

Acquiring unit 101, for determining frame number and the frequency hop sequences side-play amount of Zhong Ge logic district, super community, described super community comprises at least two logic district.

Variable unit 102, for the frame number of described at least two logic district of determining according to described acquiring unit 101, the frequency hop sequences side-play amount variable of at least two logic district described in calculating.

Concrete, described variable unit 102 can be for: the absolute value that calculates difference between the frame number of the logic district of frame number minimum in the frame number of described at least two logic district that acquiring unit 101 determines and described super community, obtain the first frame number poor, and using described the first frame number poor as described in the frequency hop sequences side-play amount variable of at least two logic district.

Amending unit 103, frequency hop sequences side-play amount variable for described at least two logic district of calculating according to described variable unit 102 is revised the frequency hop sequences side-play amount of described at least two logic district, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

Concrete, described amending unit 103 can be for: the corresponding addition of frequency hop sequences side-play amount of described at least two logic district that the frequency hop sequences side-play amount variable of described at least two logic district that described variable unit 102 is calculated is definite with described acquiring unit 101, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

Be connected unit 104, for the correction frequency hop sequences side-play amount that sends described at least two logic district that described amending unit 103 obtains to base station control device, so that described base station control device configures the correction frequency hop sequences side-play amount of described at least two logic district to corresponding logic district.

Optionally, with reference to shown in Fig. 2:

Described acquiring unit 101 is also for determining the frequency quantity of described super community.

Described variable unit 102, comprising:

The first variable subelement 1021, the absolute value for difference between the frame number of at least two logic district described in calculating and the frame number of the logic district of described super community frame number minimum, obtains the first frame number poor.

The second variable subelement 1022, for the poor frequency quantity divided by the definite described super community of described acquiring unit 101 of described the first frame number that described the first variable subelement 1021 is calculated, and the frequency hop sequences side-play amount variable using the remainder obtaining as described at least two logic district.

Concrete, described base station control device can replace the correction frequency hop sequences side-play amount of described few two logic district the not described frequency hop sequences side-play amount through revising, it is configured in corresponding logic district, and corrected described correction frequency hop sequences side-play amount can directly act in the terminal of access.

In reality, base station control device can be according to configuration to described user's correction frequency hop sequences side-play amount and the frame number of described logic district, and the frequency quantity in combining super community is planned the frequency hop sequences of described at least two logic district.The frequency hop sequences side-play amount variable of being introduced by the present invention obtains revising frequency hop sequences side-play amount, and then the described user's who obtains frequency hop sequences, can effectively eliminate the frequency hopping collision problem between the Different Logic community user that the frame number difference due to described logic district causes.Realization of the present invention can be both off-line, spendable when base station control device is set, and also can use in conjunction with this terminal of subscriber equipment or other-end access, dynamic.

Optionally, shown in Fig. 3, described frequency hop sequences device for planning, also comprises:

Described acquiring unit 101, also for determining the frequency quantity of described super community.

Frame number side-play amount unit 105, for the frame number of described at least two logic district of determining according to described acquiring unit 101, the frame number side-play amount of at least two logic district described in calculating.

Concrete, described frame number side-play amount unit 105 can be for:

Calculate the absolute value of difference between the frame number of the logic district of frame number maximum in the frame number of described at least two logic district that described acquiring unit 101 determines and described super community, obtain the second frame number poor, and using described the second frame number poor as described in the frame number side-play amount of at least two logic district.

Sequence number unit 106, for the frequency hop sequences side-play amount of the frame number side-play amount of described at least two logic district of calculating according to described frame number side-play amount unit 105, described at least two logic district that described acquiring unit 101 is determined, the frequency quantity of the described super community that the frequency hop sequences side-play amount variable of described at least two logic district that described variable unit 102 calculates and described acquiring unit 101 are determined, the frequency hop sequences of at least two logic district described in calculating.

Described linking unit 104, also for the frequency hop sequences that sends described at least two logic district of calculating described sequence number unit 106 to base station control device, so that described base station control device configures the frequency hop sequences of described at least two logic district to corresponding logic district.

Optionally, shown in Fig. 4, described sequence number unit 106, specifically comprises:

First ray work song unit 1061, the frequency hop sequences side-play amount of described at least two logic district of determining for the frame number side-play amount of 105 described at least two logic district of calculating using described frame number side-play amount unit, described acquiring unit 101 and the frequency hop sequences side-play amount variable of described at least two logic district of described variable unit 102 calculating and as the frequency parameter of described at least two logic district.

The second sequence number subelement 1062, the frequency quantity of the described super community of determining divided by described acquiring unit 101 for the described frequency parameter that described First ray work song unit 1061 is calculated, and the frequency hop sequences using the remainder obtaining as described at least two logic district.

Optionally, shown in Fig. 5, described frequency hop sequences device for planning also comprises:

Dispensing unit 107, configures at least two logic district for the frame number according to predetermined and time slot in super community.

Described acquiring unit 101 is also for determining the frame number of described at least two logic district of described dispensing unit 107 configurations.

Allocation units 108 are described user equipment allocation channel for the frequency hop sequences of described at least two logic district of calculating according to described sequence number unit 106.

The frequency hop sequences device for planning that the embodiment of the present invention provides, can be by introducing the method for frequency hop sequences side-play amount variable, revise the frequency hop sequences side-play amount of each logic district in super community, thereby make base station control device revised described correction frequency hop sequences side-play amount can be distributed to each corresponding logic district, the frequency hop sequences that makes Different Logic community can sequential loop and the frequency hopping collision problem that do not access terminal between (subscriber equipment), also can self utilize described correction frequency hop sequences side-play amount to plan the frequency hop sequences of described at least two logic district by described frequency hop sequences device for planning, thereby make at least one time interval resource in each logic district shared channel resources in super community, and then improved the channel resource utilance of super community.

Embodiments of the invention provide a kind of frequency hop sequences device for planning, shown in Fig. 6, this frequency hop sequences device for planning can embed or itself be exactly micro-process computer, such as: the portable equipments such as all-purpose computer, customization machine, mobile phone terminal or purl machine, this frequency hop sequences device for planning 601 comprises: at least one FPDP 6011, processor 6012, memory 6013 and bus 6014, this at least one FPDP 6011, processor 6012 and memory 6013 are connected by bus 6014 and complete mutual communication.

This bus 6014 can be ISA (Industry Standard Architecture, industry standard architecture) bus, PCI (Peripheral Component, peripheral component interconnect) bus or EISA (Extended Industry Standard Architecture, extended industry-standard architecture) bus etc.This bus 6014 can be divided into address bus, data/address bus, control bus etc.For ease of representing, in Fig. 6, only with a thick line, represent, but do not represent only to have the bus of a bus or a type.Wherein:

Memory 6013 is for stores executable programs code, and this program code comprises computer-managed instruction.Memory 6013 may comprise high-speed RAM memory, also may also comprise nonvolatile memory (non-volatile memory), for example at least one magnetic disc store.

Processor 6012 may be a central processing unit (Central Processing Unit, referred to as CPU), or specific integrated circuit (Application Specific Integrated Circuit, referred to as ASIC), or be configured to implement one or more integrated circuits of the embodiment of the present invention.

Wherein, described FPDP 6011, for determining frame number and the frequency hop sequences side-play amount of Zhong Ge logic district, super community, described super community comprises at least two logic district.

Described processor 6012, for the frame number of described at least two logic district of determining according to described FPDP 6011, the frequency hop sequences side-play amount variable of at least two logic district described in calculating.

Concrete, described processor 6012 can be for: the absolute value that calculates difference between the frame number of the logic district of frame number minimum in the frame number of described at least two logic district that described FPDP 6011 determines and described super community, obtain the first frame number poor, and using described the first frame number poor as described in the frequency hop sequences side-play amount variable of at least two logic district.

Described processor 6012, also for the frequency hop sequences side-play amount variable of described at least two logic district of calculating according to described processor 6012, the frequency hop sequences side-play amount of described at least two logic district is revised the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

Concrete described processor 6012, can be for: the corresponding addition of frequency hop sequences side-play amount of described at least two logic district that the frequency hop sequences side-play amount variable of described at least two logic district that described processor 6012 is calculated is definite with described FPDP 6011, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

Described FPDP 6011, also for the correction frequency hop sequences side-play amount that sends described at least two logic district that described processor 6012 obtains to base station control device, so that described base station control device configures the correction frequency hop sequences side-play amount of described at least two logic district to corresponding logic district.

Concrete, described base station control device can replace the correction frequency hop sequences side-play amount of described few two logic district the not described frequency hop sequences side-play amount through revising, it is configured in corresponding logic district, and corrected described correction frequency hop sequences side-play amount can directly act in the terminal of access.

In reality, base station control device can be according to configuration to described user's correction frequency hop sequences side-play amount and the frame number of described logic district, and the frequency quantity in combining super community is planned the frequency hop sequences of described at least two logic district.The frequency hop sequences side-play amount variable of being introduced by the present invention obtains revising frequency hop sequences side-play amount, and then the described user's who obtains frequency hop sequences, can effectively eliminate the frequency hopping collision problem between the Different Logic community user that the frame number difference due to described logic district causes.Realization of the present invention can be both off-line, spendable when base station control device is set, and also can use in conjunction with this terminal of subscriber equipment or other-end access, dynamic.

Optionally, described FPDP 6011 is also for determining the frequency quantity of described super community.

Described processor 6012, the absolute value specifically for difference between the frame number of the logic district of frame number minimum in the frame number of at least two logic district described in calculating and described super community, obtains the first frame number poor.

Described processor 6012, the also poor frequency quantity divided by the definite described super community of described FPDP 6011 of described the first frame number specifically for described processor 6012 is calculated, and the frequency hop sequences side-play amount variable using the remainder obtaining as described at least two logic district.

Optionally, described FPDP 6011, also for determining the frequency quantity of described super community.

Described processor 6012, for the frame number of described at least two logic district of determining according to described FPDP 6011, the frame number side-play amount of at least two logic district described in calculating.

Concrete, described processor 6012 can be for: the absolute value of difference between the frame number of the logic district of frame number maximum in the described super community that the frame number that calculates the described logic district that described FPDP 6011 determines and described dispensing unit configure, obtain the second frame number poor, and using described the second frame number poor as described in the frame number side-play amount of at least two logic district.

Described processor 6012, for the frequency hop sequences side-play amount of the frame number side-play amount of described at least two logic district of calculating according to described processor 6012, described at least two logic district that described FPDP 6011 is determined, the frequency quantity of the described super community that the frequency hop sequences side-play amount variable of described at least two logic district that described processor 6012 calculates and described FPDP 6011 are determined, the frequency hop sequences of at least two logic district described in calculating.

Concrete, described processor 6012, can also for the frame number side-play amount of described at least two logic district that described processor 6012 is calculated, the frequency hop sequences side-play amount of described at least two logic district that described FPDP 6011 is determined and the frequency hop sequences side-play amount variable of described at least two logic district of described processor 6012 calculating and as the frequency parameter of described at least two logic district.

Described processor 6012, the frequency quantity of the described super community of also determining divided by described FPDP 6011 specifically for the described frequency parameter that described processor 6012 is calculated, and the frequency hop sequences using the remainder obtaining as described at least two logic district.

Described FPDP 6011, also for the frequency hop sequences that sends described at least two logic district that described processor 6012 calculates to base station control device, so that described base station control device configures the frequency hop sequences of described at least two logic district to corresponding logic district.

Optionally, described processor 6012, also configures at least two logic district for the frame number according to predetermined and time slot in super community.

Described FPDP 6011 is also for determining the frame number of described at least two logic district of described processor 6012 configurations.

Described processor 6012, also the frequency hop sequences at least two logic district described in the described frequency hop sequences calculating according to described processor 6012 is described user equipment allocation channel.

The frequency hop sequences device for planning that the embodiment of the present invention provides, can be by introducing the method for frequency hop sequences side-play amount variable, revise the frequency hop sequences side-play amount of each logic district in super community, thereby make base station control device revised described correction frequency hop sequences side-play amount can be distributed to each corresponding logic district, the frequency hop sequences that makes Different Logic community can sequential loop and the frequency hopping collision problem that do not access terminal between (subscriber equipment), also can self utilize described correction frequency hop sequences side-play amount to plan the frequency hop sequences of described at least two logic district by described frequency hop sequences device for planning, thereby make at least one time interval resource in each logic district shared channel resources in super community, and then improved the channel resource utilance of super community.

Through the above description of the embodiments, the technical staff in described field can be well understood to the present invention and can realize with hardware, or firmware realization, or their compound mode realizes.When using software to realize, one or more instructions or the code that above-mentioned functions can be stored in computer-readable medium or on computer-readable medium transmit.Computer-readable medium comprises computer-readable storage medium and communication media, and wherein communication media comprises any medium of being convenient to transmit from a place to another place computer program.Storage medium can be any usable medium that computer can access.As example but be not limited to: computer-readable medium can comprise RAM (Random Access Memory, random asccess memory), ROM (Read Only Memory, read-only memory), EEPROM (Electrically Erasable Programmable Read Only Memory, EEPROM (Electrically Erasable Programmable Read Only Memo)), CD-ROM (Compact Disc Read Only Memory, be read-only optical disc) or other optical disc storage, magnetic disk storage medium or other magnetic storage apparatus, or can be used in carry or store the expectation with instruction or data structure form program code and can be by any other medium of computer access.In addition, any connection can be suitable becomes computer-readable medium.For example, if software is to use coaxial cable, optical fiber cable, twisted-pair feeder, DSL (Digital Subscriber Line, digital subscriber line) wireless technology or such as infrared ray, radio and microwave from website, server or other remote source transmission, coaxial cable, optical fiber cable, twisted-pair feeder, DSL or the wireless technology such as infrared ray, wireless and microwave are included in the photographic fixing of described medium so.As used in the present invention, dish and dish comprise CD (Compact Disc, compression laser disc), laser dish, laser disc, DVD dish (Digital Versatile Disc, digital universal light), floppy disk and Blu-ray Disc, the copy data of the common magnetic of its mid-game, dish carrys out the copy data of optics with laser.Within combination above also should be included in the protection range of computer-readable medium.

Embodiments of the invention provide a kind of frequency hop sequences planing method, can be used for the included above-mentioned various frequency hop sequences device for planning of the embodiment of the present invention, shown in Fig. 7, for the communications field, specifically for frequency hop sequences planning, comprise the following steps:

701, frequency hop sequences device for planning is determined frame number (the Frame Number of Zhong Ge logic district, super community, FN) and frequency hop sequences side-play amount (Mobile Allocation Index Offset, MAIO), described super community comprises at least two logic district.

In reality, described super microzonation is divided into 2-n logic district, and n is more than or equal to 2 positive integer, and the frame number that each logic district is predetermined and time slot can be set according to actual needs flexibly.

Described frequency hop sequences device for planning can obtain and definite base station control device in the frame number of described each logic district and the frequency hop sequences side-play amount of described at least two logic district that have preset.

Or described frequency hop sequences device for planning can also first configure at least two logic district according to predetermined frame number and time slot (Timeslot, TS) in super community.By described frequency hop sequences device for planning, determined again the frame number of described at least two logic district of described frequency hop sequences device for planning configuration.

And about the frequency hop sequences side-play amount of at least two logic district described in described super community, the frequency hop sequences side-play amount of at least two logic district described in can also being calculated with reference to the access frequency point numbering of described subscriber equipment by described frequency hop sequences device for planning.

Concrete, frequency numbering is predeterminable in the base station or relevant device of super community corresponding to described frequency.Described frequency hop sequences device for planning is subordinated to described base station or relevant device, can directly use described frequency numbering, or can carry out information interaction with described base station or relevant device.

The effect of described frequency hop sequences side-play amount is exactly to confirm the initial frequency of subscriber equipment, because intermediate-frequeney point numbering in described super community is scheduled to.So can use described numbering to determine frequency, can show that described frequency hop sequences side-play amount is to determine described initial frequency hopping with reference to described access frequency point numbering.Described frequency hop sequences side-play amount can be identical with described access frequency point numbering, can be also only one-to-one relationship.

702, described frequency hop sequences device for planning is according to the frame number of the logic district of the frame number of described at least two logic district and the access of described subscriber equipment, the frequency hop sequences side-play amount variable of at least two logic district described in calculating (Delta Mobile Allocation Index Offset, Δ MAIO).

Concrete, the absolute value of difference between the frame number of the logic district of frame number minimum in the frame number of at least two logic district and described super community described in described frequency hop sequences device for planning calculates, obtain the first frame number poor, and using described the first frame number poor as described in the frequency hop sequences side-play amount variable of at least two logic district.

Optionally, described frequency hop sequences device for planning can also first be determined the frequency quantity of described super community.Then, described in described frequency hop sequences device for planning calculates, the absolute value of difference between the frame number of the logic district of frame number minimum in the frame number of at least two logic district and described super community, obtains the first frame number poor.Described frequency hop sequences device for planning is by the poor frequency quantity divided by described super community of described the first frame number, and the frequency hop sequences side-play amount variable using the remainder obtaining as described at least two logic district.

As from the foregoing, in described step 702, calculate the first frame number poor after, frequency quantity divided by described super community obtains the first remainder again, the benefit of the frequency hop sequences side-play amount variable using described the first remainder as described at least two logic district is to remain that frequency hop sequences side-play amount variable is less than the frequency quantity of described super community, can only take the memory space of fixed size, avoid taking uncertain memory space, can save storage resources.Yet, can increase operand.In practice, can be suitable in conjunction with different demands.

703, described frequency hop sequences device for planning is revised the frequency hop sequences side-play amount of described at least two logic district according to the frequency hop sequences side-play amount variable of described at least two logic district, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

Concrete, described frequency hop sequences device for planning is the corresponding addition of frequency hop sequences side-play amount with described at least two logic district by the frequency hop sequences side-play amount variable of described at least two logic district, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

704, described frequency hop sequences device for planning send described in the correction frequency hop sequences side-play amount of at least two logic district to base station control device, so that described base station control device configures the correction frequency hop sequences side-play amount of described at least two logic district to corresponding logic district.

Concrete, described base station control device can replace the correction frequency hop sequences side-play amount of described few two logic district the not described frequency hop sequences side-play amount through revising, it is configured in corresponding logic district, and corrected described correction frequency hop sequences side-play amount can directly act in the terminal of access.

In reality, base station control device can be according to configuration to described user's correction frequency hop sequences side-play amount and the frame number of described logic district, and the frequency quantity in combining super community is planned the frequency hop sequences of described at least two logic district.The frequency hop sequences side-play amount variable of being introduced by the present invention obtains revising frequency hop sequences side-play amount, and then the described user's who obtains frequency hop sequences, can effectively eliminate the frequency hopping collision problem between the Different Logic community user that the frame number difference due to described logic district causes.Realization of the present invention can be both off-line, spendable when base station control device is set, and also can use in conjunction with this terminal of subscriber equipment or other-end access, dynamic.

The frequency hop sequences planing method that the embodiment of the present invention provides, can be by introducing the method for frequency hop sequences side-play amount variable, revise the frequency hop sequences side-play amount of each logic district in super community, thereby make base station control device revised described correction frequency hop sequences side-play amount can be distributed to each corresponding logic district, the frequency hop sequences that makes Different Logic community can sequential loop and the frequency hopping collision problem that do not access terminal between (subscriber equipment), thereby make at least one time interval resource in each logic district shared channel resources in super community, and then improved the channel resource utilance of super community.

Based on the various embodiments described above, embodiments of the invention provide a kind of frequency hop sequences planing method, for the communications field, specifically for frequency hop sequences planning, shown in Fig. 8, comprise the following steps:

801, frequency hop sequences device for planning is determined frame number (the Frame Number of Zhong Ge logic district, super community, FN) and frequency hop sequences side-play amount (Mobile Allocation Index Offset, MAIO), described super community comprises at least two logic district.

In reality, described super microzonation is divided into 2-n logic district, and n is more than or equal to 2 positive integer, and the frame number that each logic district is predetermined and time slot can be set according to actual needs flexibly.

Described frequency hop sequences device for planning can obtain and definite base station control device in the frame number of described each logic district and the frequency hop sequences side-play amount of described at least two logic district that have preset.

Or described frequency hop sequences device for planning can also first configure at least two logic district according to predetermined frame number and time slot (Timeslot, TS) in super community.By described frequency hop sequences device for planning, determined again the frame number of described at least two logic district of described frequency hop sequences device for planning configuration.

And about the frequency hop sequences side-play amount of at least two logic district described in described super community, the frequency hop sequences side-play amount of at least two logic district described in can also being calculated with reference to the access frequency point numbering of described subscriber equipment by described frequency hop sequences device for planning.

Concrete, frequency numbering is predeterminable in the base station or relevant device of super community corresponding to described frequency.Described frequency hop sequences device for planning is subordinated to described base station or relevant device, can directly use described frequency numbering, or can carry out information interaction with described base station or relevant device.

The effect of described frequency hop sequences side-play amount is exactly to confirm the initial frequency of subscriber equipment, because intermediate-frequeney point numbering in described super community is scheduled to.So can use described numbering to determine frequency, can show that described frequency hop sequences side-play amount is to determine described initial frequency hopping with reference to described access frequency point numbering.Described frequency hop sequences side-play amount can be identical with described access frequency point numbering, can be also only one-to-one relationship.

802, described frequency hop sequences device for planning is according to the frame number of the logic district of the frame number of described at least two logic district and the access of described subscriber equipment, the frequency hop sequences side-play amount variable of at least two logic district described in calculating (Delta Mobile Allocation Index Offset, Δ MAIO).

Concrete, the absolute value of difference between the frame number of the logic district of frame number minimum in the frame number of at least two logic district and described super community described in described frequency hop sequences device for planning calculates, obtain the first frame number poor, and using described the first frame number poor as described in the frequency hop sequences side-play amount variable of at least two logic district.

Optionally, described frequency hop sequences device for planning can also, first with reference to step 805, be determined the frequency quantity of described super community.Then, described in described frequency hop sequences device for planning calculates, the absolute value of difference between the frame number of the logic district of frame number minimum in the frame number of at least two logic district and described super community, obtains the first frame number poor.Described frequency hop sequences device for planning is by the poor frequency quantity divided by described super community of described the first frame number, and the frequency hop sequences side-play amount variable using the remainder obtaining as described at least two logic district.

As from the foregoing, in described step 802, calculate the first frame number poor after, frequency quantity divided by described super community obtains the first remainder again, the benefit of the frequency hop sequences side-play amount variable using described the first remainder as described at least two logic district is to remain that frequency hop sequences side-play amount variable is less than the frequency quantity of described super community, can only take the memory space of fixed size, avoid taking uncertain memory space, can save storage resources.Yet, can increase operand.In practice, can be suitable in conjunction with different demands.

803, described frequency hop sequences device for planning is revised the frequency hop sequences side-play amount of described at least two logic district according to the frequency hop sequences side-play amount variable of described at least two logic district, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

Concrete, described frequency hop sequences device for planning is the frequency hop sequences offset addition of the frequency hop sequences side-play amount variable of described at least two logic district and described at least two logic district, and using obtain and as the correction frequency hop sequences side-play amount of described subscriber equipment.

804, described frequency hop sequences device for planning send described in the correction frequency hop sequences side-play amount of at least two logic district to base station control device, so that described base station control device configures the correction frequency hop sequences side-play amount of described at least two logic district to corresponding logic district.

Concrete, described base station control device can replace the correction frequency hop sequences side-play amount of described few two logic district the not described frequency hop sequences side-play amount through revising, it is configured in corresponding logic district, and corrected described correction frequency hop sequences side-play amount can directly act in the terminal of access.

In reality, base station control device can be according to configuration to described user's correction frequency hop sequences side-play amount and the frame number of described logic district, and the frequency quantity in combining super community is planned the frequency hop sequences of described at least two logic district.The frequency hop sequences side-play amount variable of being introduced by the present invention obtains revising frequency hop sequences side-play amount, and then the described user's who obtains frequency hop sequences, can effectively eliminate the frequency hopping collision problem between the Different Logic community user that the frame number difference due to described logic district causes.

Because realization of the present invention can be both off-line, spendable when base station control device is set, also can use in conjunction with this terminal of subscriber equipment or other-end access, dynamic.So, the subsequent step of the embodiment of the present invention, both can be used as a kind of dynamic implementation of the present invention, also can be used as a kind of explanation: this explanation is to described correction frequency hop sequences side-play amount is sent to after described base station control device, by described base station control device, how described correction frequency hop sequences side-play amount is specifically configured to corresponding logic district, and then act on the explaining of terminal (comprising subscriber equipment) of at least two logic district described in access.

Here it should be noted that described step 804 be not thereafter step must, through step, there is no fixing sequencing yet.For described step 804, can first carry out described step 804, also described step 804 can be synchronizeed and carried out with arbitrary step thereafter, can also after being finished, described step 804 step thereafter carry out.Described in the embodiment of the present invention be only for convenient says and a kind of implementation of the present invention is described, actual covering scope of the present invention is not limited to the present embodiment, all change schemes that can work through non-creativeness all can be contained by the present invention.

805, described frequency hop sequences device for planning is determined the frequency quantity of described super community.

806, described frequency hop sequences device for planning is according to the frame number of the logic district of the frame number of described at least two logic district and subscriber equipment access, the frame number side-play amount of at least two logic district described in calculating (Frame Number offset, FN offset).

Concrete, the absolute value of difference between the frame number of the logic district of frame number maximum in the frame number of at least two logic district and described super community described in described frequency hop sequences device for planning calculates, obtain the second frame number poor, and using described the second frame number poor as described in the frame number side-play amount of at least two logic district.

807, described frequency hop sequences device for planning is according to the frequency quantity of the frequency hop sequences side-play amount variable of the frequency hop sequences side-play amount of the frame number side-play amount of described at least two logic district, described at least two logic district, described at least two logic district and described super community, the frequency hop sequences of at least two logic district described in calculating.

Concrete, described frequency hop sequences device for planning can using the frequency hop sequences side-play amount variable of the frequency hop sequences side-play amount of the frame number side-play amount of described at least two logic district, described at least two logic district and described at least two logic district and as the frequency parameter of described at least two logic district.Afterwards, described frequency hop sequences device for planning is the frequency quantity divided by described super community by described frequency parameter, and the frequency hop sequences using the remainder obtaining as described at least two logic district.

Optionally, can also using the frame number side-play amount of described correction frequency hop sequences side-play amount and described at least two logic district and as described frequency parameter, integrating step 804 is known, what difference is these two kinds of computational methods results do not have.

The benefit of doing is like this, while not introducing described frequency hop sequences side-play amount variable, in Different Logic community, the former frequency hop sequences of different user devices has overlappingly, and the frequency hopping between subscriber equipment can bump.And frequency hop sequences planing method provided by the invention, introduced described frequency hop sequences side-play amount variable, the frequency hop sequences of the different user devices in Different Logic community can sequential loop be arranged, there will not be overlapping, so the frequency hopping between subscriber equipment can not bump, can realize circulation frequency hopping.

So just can directly obtain the described user's that mentions in step 804 frequency hop sequences, can effectively eliminate the frequency hopping collision problem between the Different Logic community user that the frame number difference due to described logic district causes.

808, described frequency hop sequences device for planning send described in the frequency hop sequences of at least two logic district to base station control device, so that described base station control device configures the frequency hop sequences of described at least two logic district to corresponding logic district.

Optionally, described frequency hop sequences device for planning both can send to described base station control device by the frequency hop sequences of described at least two logic district, allow described base station control device that the frequency hop sequences of described at least two logic district is configured to corresponding logic district, make it can take this as the foundation as described user equipment allocation channel.

Can also according to the frequency hop sequences of described at least two logic district, be directly described user equipment allocation channel.

Concrete, when described frequency hop sequences device for planning is described user equipment allocation channel, can be according to the frequency hop sequences of described at least two logic district corresponding to subscriber equipment, with this, determine the frequency numbering that described subscriber equipment is corresponding, by the user equipment allocation in Different Logic community, in the same time interval resource of different frequent points, frequency hop sequences and frequency are numbered one-to-one relationship.

Described user equipment allocation, in which time interval resource, need to be determined in conjunction with actual time interval resource idle condition, and all subscriber equipmenies may be distributed in same time interval resource, and also possibility flexible allocation is in different time-gap resource.Make logic district different in super community can share at least one time interval resource.

The frequency hop sequences planing method that the embodiment of the present invention provides, can be by introducing the method for frequency hop sequences side-play amount variable, revise the frequency hop sequences side-play amount of each logic district in super community, thereby make base station control device revised described correction frequency hop sequences side-play amount can be distributed to each corresponding logic district, the frequency hop sequences that makes Different Logic community can sequential loop and the frequency hopping collision problem that do not access terminal between (subscriber equipment), also can self utilize described correction frequency hop sequences side-play amount to plan the frequency hop sequences of described at least two logic district by described frequency hop sequences device for planning, thereby make at least one time interval resource in each logic district shared channel resources in super community, and then improved the channel resource utilance of super community.

In conjunction with the various embodiments described above, the embodiment of the present invention provides a kind of frequency hop sequences planing method, specifically for the not identical sight of frame number corresponding to the logic district in super community, comprises following content:

For the ease of understanding, shown in Fig. 9, Figure 10 and Figure 11, describe.(the frequency correction channel of FCCH in figure, frequency correction channel), SCH (Synchronization Channel, synchronizing channel), BCCH (Broadcast Control Channel, Broadcast Control Channel) and CCCH (Common Control Channel, control channel), be prior art, the effect of playing is separately also common practise, does not repeat them here.

With reference to step 801, frequency hop sequences device for planning is determined frame number (the Frame Number of Zhong Ge logic district, super community, FN) and the frequency hop sequences side-play amount of at least two logic district described in described super community (Mobile Allocation Index Offset, MAIO), described super community comprises at least two logic district.

In reality, described super microzonation is divided into 2-n logic district, and n is more than or equal to 2 positive integer, and the frame number that each logic district is predetermined and time slot can be set according to actual needs flexibly.

Described frequency hop sequences device for planning can obtain and definite base station control device in the frame number of described each logic district and the frequency hop sequences side-play amount of described at least two logic district that have preset.

Or described frequency hop sequences device for planning can also first configure at least two logic district according to predetermined frame number and time slot (Timeslot, TS) in super community.Example as shown in Figure 9, frequency hop sequences device for planning is according to predetermined frame number (Frame Number, FN) and time slot (Timeslot, TS) in super community, configure 4 logic district: logic district B1, logic district B2, B3He logic district, logic district B4, described logic district B1 is configured in the time slot 0 of the 0th frame, described logic district B2 is configured in the time slot 1 of the 3rd frame, and described logic district B3 is configured in the time slot 4 of the 6th frame, and described logic district B4 is configured in the time slot 5 of the 8th frame.The frame number that each logic district is predetermined and time slot are unfixing, in practice, can set flexibly as required.

By described frequency hop sequences device for planning, determined again the frame number of described at least two logic district of described frequency hop sequences device for planning configuration.

And about the frequency hop sequences side-play amount of at least two logic district described in described super community, the frequency hop sequences side-play amount of at least two logic district described in can also being calculated with reference to the access frequency point numbering of described subscriber equipment by described frequency hop sequences device for planning.As shown in figure 11, subscriber equipment MS1-MS5 accesses from different frequent points, and described frequency hop sequences device for planning calculates the frequency hop sequences side-play amount of the logic district of each subscriber equipment access with reference to the access frequency point numbering of each subscriber equipment MS1-MS5:

The frequency hop sequences side-play amount of the logic district of subscriber equipment MS1 access is 0, the frequency hop sequences side-play amount of the logic district of subscriber equipment MS2 access is 1, the frequency hop sequences side-play amount of the logic district of subscriber equipment MS3 access is 2, the frequency hop sequences side-play amount of the logic district of subscriber equipment MS4 access is 3, the frequency hop sequences side-play amount of the logic district of subscriber equipment MS5 access is 4, and the frequency hop sequences side-play amount of the logic district of subscriber equipment MS6 access is 5.

Concrete, frequency numbering is predeterminable in the base station or relevant device of super community corresponding to described frequency.Described frequency hop sequences device for planning is subordinated to described base station or relevant device, can directly use described frequency numbering, or can carry out information interaction with described base station or relevant device.

The effect of described frequency hop sequences side-play amount is exactly to confirm the initial frequency of subscriber equipment, because intermediate-frequeney point numbering in described super community is scheduled to.So can use described numbering to determine frequency, can show that described frequency hop sequences side-play amount is to determine described initial frequency hopping with reference to described access frequency point numbering.Described frequency hop sequences side-play amount can be identical with described access frequency point numbering, can be also only one-to-one relationship.

With reference to step 802, the absolute value of difference between the frame number of the logic district of frame number minimum in the frame number of at least two logic district and described super community described in described frequency hop sequences device for planning calculates, obtain the first frame number poor, and using described the first frame number poor as described in frequency hop sequences side-play amount variable (the Delta Mobile Allocation Index Offset of at least two logic district, Δ MAIO), as shown in Fig. 9, Figure 10 and Figure 11:

In above-mentioned super community, the logic district of frame number minimum is logic district B1, and frame number is 0.

For subscriber equipment MS1, the logic district of access is logic district B4, and frame number is 8, and poor with the first frame number of logic district B1 is 8, and the frequency hop sequences side-play amount variable of the logic district of subscriber equipment MS1 access is 8.

For subscriber equipment MS2 and MS6, the logic district of access is logic district B2, and frame number is 3, and poor with the first frame number of logic district B1 is 3, and the frequency hop sequences side-play amount variable of the logic district of subscriber equipment MS2, MS6 access is 3.

For subscriber equipment MS3 and MS5, the logic district of access is logic district B1, and frame number is 0, and poor with the first frame number of logic district B1 is 0, and the frequency hop sequences side-play amount variable of the logic district of subscriber equipment MS3, MS5 access is 0.

For subscriber equipment MS4, the logic district of access is logic district B3, and frame number is 8, and poor with the first frame number of logic district B1 is 6, and the frequency hop sequences side-play amount variable of the logic district of subscriber equipment MS1 access is 6.

Optionally, described frequency hop sequences device for planning can also, first with reference to step 805, be determined the frequency quantity of described super community.Then, described in described frequency hop sequences device for planning calculates, the absolute value of difference between the frame number of the logic district of frame number minimum in the frame number of at least two logic district and described super community, obtains the first frame number poor.Described frequency hop sequences device for planning is by the poor frequency quantity divided by described super community of described the first frame number, and the frequency hop sequences side-play amount variable using the remainder obtaining as described at least two logic district.

For example: for subscriber equipment MS1, the logic district of access is logic district B4, and frame number is 8, and poor with the first frame number of logic district B1 is 8, the first frame number of subscriber equipment MS1 differs from 8 frequency quantity 6 business more than 12 divided by described super community, and the frequency hop sequences side-play amount variable of subscriber equipment MS1 is 2.For subscriber equipment MS4, the logic district of access is logic district B3, frame number is 8, poor with the first frame number of logic district B1 is 6, the first frame number of subscriber equipment MS4 differs from 6 frequency quantity 6 business more than 10 divided by described super community, and the frequency hop sequences side-play amount variable of the logic district of subscriber equipment MS1 access is 0

As from the foregoing, in described step 802, calculate the first frame number poor after, frequency quantity divided by described super community obtains the first remainder again, the benefit of the frequency hop sequences side-play amount variable using described the first remainder as described at least two logic district is to remain that frequency hop sequences side-play amount variable is less than the frequency quantity of described super community, can only take the memory space of fixed size, avoid taking uncertain memory space, can save storage resources.Yet, can increase operand.In practice, can be suitable in conjunction with different demands.

With reference to step 803, described frequency hop sequences device for planning is revised the frequency hop sequences side-play amount of described at least two logic district according to the frequency hop sequences side-play amount variable of described at least two logic district, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

Concrete, described frequency hop sequences device for planning is the frequency hop sequences offset addition of the frequency hop sequences side-play amount variable of described at least two logic district and described at least two logic district, and using obtain and as the correction frequency hop sequences side-play amount of described subscriber equipment.

With reference to step 804, described in described frequency hop sequences device for planning sends, the correction frequency hop sequences side-play amount of at least two logic district is to base station control device, so that described base station control device configures the correction frequency hop sequences side-play amount of described at least two logic district to corresponding logic district.

Concrete, described base station control device can replace the correction frequency hop sequences side-play amount of described few two logic district the not described frequency hop sequences side-play amount through revising, it is configured in corresponding logic district, and corrected described correction frequency hop sequences side-play amount can directly act in the terminal of access.

In reality, base station control device can be according to configuration to described user's correction frequency hop sequences side-play amount and the frame number of described logic district, and the frequency quantity in combining super community is planned the frequency hop sequences of described at least two logic district.The frequency hop sequences side-play amount variable of being introduced by the present invention obtains revising frequency hop sequences side-play amount, and then the described user's who obtains frequency hop sequences, can effectively eliminate the frequency hopping collision problem between the Different Logic community user that the frame number difference due to described logic district causes.

Because realization of the present invention can be both off-line, spendable when base station control device is set, also can use in conjunction with this terminal of subscriber equipment or other-end access, dynamic.So, the subsequent step of the embodiment of the present invention, both can be used as a kind of dynamic implementation of the present invention, also can be used as a kind of explanation: this explanation is to described correction frequency hop sequences side-play amount is sent to after described base station control device, by described base station control device, how described correction frequency hop sequences side-play amount is specifically configured to corresponding logic district, and then act on the explaining of terminal (comprising subscriber equipment) of at least two logic district described in access.

Here it should be noted that described step 804 be not thereafter step must, through step, there is no fixing sequencing yet.For described step 804, can first carry out described step 804, also described step 804 can be synchronizeed and carried out with arbitrary step thereafter, can also after being finished, described step 804 step thereafter carry out.Described in the embodiment of the present invention be only for convenient says and a kind of implementation of the present invention is described, actual covering scope of the present invention is not limited to the present embodiment, all change schemes that can work through non-creativeness all can be contained by the present invention.

With reference to step 805, as shown in figure 11, in the super community that the embodiment of the present invention exemplifies, contain 3 sectors, three sectors are Alpha (Alpha, α) sector, beta (Bata, β) sector and gamma (Gamma, γ) sector, there are two frequencies each sector, and described frequency hop sequences device for planning determines that the frequency quantity of described super community is 6.

With reference to step 806, described frequency hop sequences device for planning calculates the absolute value of difference between the frame number of the logic district of frame number maximum in the frame number of described at least two logic district of described subscriber equipment access and described super community, obtain the second frame number poor, and using described the second frame number poor as described in frame number side-play amount (the Frame Number offset of at least two logic district, FN offset), as shown in Fig. 9, Figure 10 and Figure 11, the frame number of each logic district is exactly the minimum frame number of the district inclusion of himself shared super community in Fig. 9.

In above-mentioned super community, that frame number largest logical community is logic district B4, and frame number is 8.Subscriber equipment MS1-MS6 is the subscriber equipment in above-mentioned super community.

For subscriber equipment MS1, the logic district of access is logic district B4, and frame number is 8, and poor with the second frame number of logic district B4 is 0, and the frame number side-play amount of the logic district of subscriber equipment MS1 access is 0.

For subscriber equipment MS2 and MS6, the logic district of access is logic district B2, and frame number is 3, and poor with the second frame number of logic district B4 is 5, and the frame number side-play amount of the logic district of subscriber equipment MS2, MS6 access is 5.

For subscriber equipment MS3 and MS5, the logic district of access is logic district B1, and frame number is 0, and poor with the second frame number of logic district B4 is 8, and the frame number side-play amount of the logic district of subscriber equipment MS3, MS5 access is 8.

For subscriber equipment MS4, the logic district of access is logic district B3, and frame number is 8, and poor with the second frame number of logic district B4 is 2, and the frame number side-play amount of the logic district of subscriber equipment MS1 access is 2.

With reference to step 807, described frequency hop sequences device for planning is according to the frequency quantity of the frequency hop sequences side-play amount variable of the frequency hop sequences side-play amount of the frame number side-play amount of described at least two logic district, described at least two logic district, described at least two logic district and described super community, the frequency hop sequences of at least two logic district described in calculating.

Concrete, described frequency hop sequences device for planning can using the frequency hop sequences side-play amount variable of the frequency hop sequences side-play amount of the frame number side-play amount of described at least two logic district, described at least two logic district and described at least two logic district and as the frequency parameter of described at least two logic district.Afterwards, described frequency hop sequences device for planning is the frequency quantity divided by described super community by described frequency parameter, and the frequency hop sequences using the remainder obtaining as described at least two logic district.

Take subscriber equipment MS2 as example, the frame number side-play amount of the logic district of MS2 access is 5, frequency hop sequences side-play amount is 1, that be 3 with described frequency hop sequences side-play amount variable and be 9, as frequency parameter, frequency parameter 9 is divided by frequency quantity 6 business more than 13 of described super community, so the frequency hop sequences of the logic district of subscriber equipment MS2 access is 3.The computational methods of the frequency hop sequences of the logic district of other subscriber equipment accesses therewith roughly the same.Therefore, the frequency hop sequences result of calculation of the logic district of subscriber equipment access is as shown in table 1:

The corresponding reference table of the frequency hop sequences of table 1 subscriber equipment and each parameter

In reality, only have a frequency hopping side-play amount variable, in this table, two different frequency hopping side-play amount variablees are that correspondence draws with reference to two kinds of optional methods of step 605 before, known in this step, final frequency hop sequences corresponding to two kinds of methods is identical, does not affect the final operation result of this method.Also illustrated, two kinds of methods of calculating frequency hopping side-play amount variable of carrying out with reference to step 605 are all desirable simultaneously.

Wherein, former frequency hop sequences (not introducing frequency hop sequences side-play amount variable) is to calculate while adopting existing techniques in realizing circulation frequency hopping, computational methods be the frame number side-play amount of described at least two logic district that described frequency hop sequences device for planning is calculated and the frequency hop sequences side-play amount of described at least two logic district and as former frequency parameter, using former frequency parameter divided by the former remainder of frequency quantity of described super community the former frequency hop sequences as described subscriber equipment.As shown in table 1 for the subscriber equipment MS1-MS6 result in the present embodiment provided by the invention.The calculating of the similar frequency hop sequences of the present invention of computational process of former frequency hop sequences, does not repeat them here.

Optionally, can also using the frame number side-play amount of described correction frequency hop sequences side-play amount and described at least two logic district and as described frequency parameter, integrating step 804 is known, what difference is these two kinds of computational methods results do not have.

The benefit of doing is like this, while not introducing described frequency hop sequences side-play amount variable, in Different Logic community, the former frequency hop sequences of different user devices has overlappingly, and the frequency hopping between subscriber equipment can bump.And frequency hop sequences planing method provided by the invention, introduced described frequency hop sequences side-play amount variable, the frequency hop sequences of the different user devices in Different Logic community can sequential loop be arranged, there will not be overlapping, so the frequency hopping between subscriber equipment can not bump, can realize circulation frequency hopping.

So just can directly obtain the described user's that mentions in step 804 frequency hop sequences, can effectively eliminate the frequency hopping collision problem between the Different Logic community user that the frame number difference due to described logic district causes.

As from the foregoing, while not introducing described frequency hop sequences side-play amount variable, in Different Logic community, the former frequency hop sequences of different user devices has overlappingly, and the frequency hopping between the subscriber equipment of Different Logic community can bump.For example, with reference to shown in table 1 and Figure 11: subscriber equipment MS1, MS2 and MS5 are from different logic district, and the former frequency hop sequences of the logic district of their access is 0.Subscriber equipment MS3 and MS6 are from different logic district, and the former frequency hop sequences of the logic district of their access is 4.If now above-mentioned subscriber equipment MS1 to MS6 is put into same time interval resource, use and between the Different Logic community user of same frequency, there will be frequency hopping collision.Can only allow each logic district monopolize one or more time interval resources and be used to the user equipment allocation channel in described logic district.

And frequency hop sequences planing method provided by the invention, introduced described frequency hop sequences side-play amount variable, the frequency hop sequences of the different user devices in Different Logic community can sequential loop be arranged, there will not be overlapping, so the frequency hopping between subscriber equipment can not bump, can between the user of Different Logic community, realize circulation frequency hopping.

With reference to step 808, described in described frequency hop sequences device for planning sends, the frequency hop sequences of at least two logic district is to base station control device, so that described base station control device configures the frequency hop sequences of described at least two logic district to corresponding logic district.

Optionally, described frequency hop sequences device for planning both can send to described base station control device by the frequency hop sequences of described at least two logic district, allow described base station control device that the frequency hop sequences of described at least two logic district is configured to corresponding logic district, make it can take this as the foundation as described user equipment allocation channel.

Can also according to the frequency hop sequences of described at least two logic district, be directly described user equipment allocation channel.

Concrete, when described frequency hop sequences device for planning is described user equipment allocation channel, can be according to the frequency hop sequences of described at least two logic district corresponding to subscriber equipment, with this, determine the frequency numbering that described subscriber equipment is corresponding, by the user equipment allocation in Different Logic community, in the same time interval resource of different frequent points, frequency hop sequences and frequency are numbered one-to-one relationship.

For example, when above-mentioned subscriber equipment MS1 to MS6 is distributed in time slot 3 these time interval resources, in conjunction with foregoing and table 1, the frequency point allocation mode of above-mentioned subscriber equipment is as shown in table 2:

Table 2 user equipment allocation signal table

In conjunction with the present embodiment, from table 1 and table 2, the frequency hop sequences that different user devices is corresponding is that sequential loop is arranged, and corresponding one by one with the frequency numbering of described super community intermediate-frequeney point, in the time of in above-mentioned subscriber equipment MS1 to MS6 is assigned to same time interval resource, can this corresponding relation be that above-mentioned different user devices distributes frequency in same time interval resource, can not produce the frequency hopping conflict between the subscriber equipment of Different Logic community, can realize circulation frequency hopping, guarantee that in same super community, same time interval resource can be shared in Different Logic community.

Described user equipment allocation, in which time interval resource, need to be determined in conjunction with actual time interval resource idle condition, and all subscriber equipmenies may be distributed in same time interval resource, and also possibility flexible allocation is in different time-gap resource.Make logic district different in super community can share at least one time interval resource.

The frequency hop sequences planing method that the embodiment of the present invention provides, can be by introducing the method for frequency hop sequences side-play amount variable, revise the frequency hop sequences side-play amount of each logic district in super community, thereby make base station control device revised described correction frequency hop sequences side-play amount can be distributed to each corresponding logic district, the frequency hop sequences that makes Different Logic community can sequential loop and the frequency hopping collision problem that do not access terminal between (subscriber equipment), also can self utilize described correction frequency hop sequences side-play amount to plan the frequency hop sequences of described at least two logic district by described frequency hop sequences device for planning, thereby make at least one time interval resource in each logic district shared channel resources in super community, and then improved the channel resource utilance of super community.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited to this, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; can expect easily changing or replacing, within all should being encompassed in protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of claim.

Claims (12)

1. a frequency hop sequences device for planning, is characterized in that, comprising:

Acquiring unit, for determining frame number and the frequency hop sequences side-play amount of Zhong Ge logic district, super community, described super community comprises at least two logic district;

Variable unit, for the frame number of described at least two logic district of determining according to described acquiring unit, the frequency hop sequences side-play amount variable of at least two logic district described in calculating;

Amending unit, frequency hop sequences side-play amount variable for described at least two logic district of calculating according to described variable unit is revised the frequency hop sequences side-play amount of described at least two logic district, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition;

Be connected unit, for the correction frequency hop sequences side-play amount that sends described at least two logic district that described amending unit obtains to base station control device, so that described base station control device configures the correction frequency hop sequences side-play amount of described at least two logic district to corresponding logic district.

2. device according to claim 1, it is characterized in that, described variable unit is specifically for the absolute value that calculates difference between the frame number of the logic district of frame number minimum in the frame number of described at least two logic district that acquiring unit determines and described super community, obtain the first frame number poor, and using described the first frame number poor as described in the frequency hop sequences side-play amount variable of at least two logic district.

3. device according to claim 1, is characterized in that, described frequency hop sequences device for planning, comprising:

Described acquiring unit is also for determining the frequency quantity of described super community;

Described variable unit, comprising:

The first variable subelement, the absolute value for difference between the frame number of at least two logic district described in calculating and the frame number of the logic district of described super community frame number minimum, obtains the first frame number poor;

The second variable subelement, be used for the frequency quantity of the poor described super community of determining divided by described acquiring unit of described first frame number of described the first variable subunit computes, and the frequency hop sequences side-play amount variable using the remainder obtaining as described at least two logic district.

4. according to the device described in claim 1-3 any one, it is characterized in that, described amending unit, specifically for the corresponding addition of frequency hop sequences side-play amount of described at least two logic district that the frequency hop sequences side-play amount variable of described at least two logic district that described variable unit is calculated is definite with described acquiring unit, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

5. a frequency hop sequences device for planning, is characterized in that, comprising: FPDP, processor, memory and bus, and wherein, described FPDP, described processor and described memory interconnect by described bus,

Wherein, described FPDP, for determining frame number and the frequency hop sequences side-play amount of Zhong Ge logic district, super community, described super community comprises at least two logic district;

Described processor, for the frame number of described at least two logic district of determining according to described FPDP, the frequency hop sequences side-play amount variable of at least two logic district described in calculating;

Described processor, also for the frequency hop sequences side-play amount variable of described at least two logic district of calculating according to described processor, the frequency hop sequences side-play amount of described at least two logic district is revised the correction frequency hop sequences side-play amount of at least two logic district described in acquisition;

Described FPDP, also for the correction frequency hop sequences side-play amount that sends described at least two logic district that described processor obtains to base station control device, so that described base station control device configures the correction frequency hop sequences side-play amount of described at least two logic district to corresponding logic district.

6. device according to claim 5, it is characterized in that, described processor is specifically for the absolute value that calculates difference between the frame number of the logic district of frame number minimum in the frame number of described at least two logic district that described FPDP determines and described super community, obtain the first frame number poor, and using described the first frame number poor as described in the frequency hop sequences side-play amount variable of at least two logic district.

7. device according to claim 5, is characterized in that, described frequency hop sequences device for planning, comprising:

Described FPDP is also for determining the frequency quantity of described super community;

Described processor, the absolute value specifically for difference between the frame number of the logic district of frame number minimum in the frame number of at least two logic district described in calculating and described super community, obtains the first frame number poor;

Described processor, the also poor frequency quantity divided by the definite described super community of described FPDP of described the first frame number specifically for described processor is calculated, and the frequency hop sequences side-play amount variable using the remainder obtaining as described at least two logic district.

8. according to the device described in claim 5-7 any one, it is characterized in that, described processor, specifically for the corresponding addition of frequency hop sequences side-play amount of described at least two logic district that the frequency hop sequences side-play amount variable of described at least two logic district that described processor is calculated is definite with described FPDP, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.

9. a frequency hop sequences planing method, is characterized in that, comprising:

Frequency hop sequences device for planning is determined frame number and the frequency hop sequences side-play amount of Zhong Ge logic district, super community, and described super community comprises at least two logic district;

Described frequency hop sequences device for planning is according to the frame number of described at least two logic district, the frequency hop sequences side-play amount variable of at least two logic district described in calculating;

Described frequency hop sequences device for planning is revised the frequency hop sequences side-play amount of described at least two logic district according to the frequency hop sequences side-play amount variable of described at least two logic district, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition;

Described in described frequency hop sequences device for planning sends, the correction frequency hop sequences side-play amount of at least two logic district is to base station control device, so that described base station control device configures the correction frequency hop sequences side-play amount of described at least two logic district to corresponding logic district.

10. method according to claim 9, is characterized in that, described frequency hop sequences device for planning is according to the frame number of described at least two logic district, and the frequency hop sequences side-play amount variable of at least two logic district described in calculating, specifically comprises:

The absolute value of difference between the frame number of the logic district of frame number minimum in the frame number of at least two logic district and described super community described in described frequency hop sequences device for planning calculates, obtain the first frame number poor, and using described the first frame number poor as described in the frequency hop sequences side-play amount variable of at least two logic district.

11. methods according to claim 9, is characterized in that, described frequency hop sequences planing method, also comprises:

Described frequency hop sequences device for planning is determined the frequency quantity of described super community;

Described frequency hop sequences device for planning is according to the frame number of the logic district of the frame number of described at least two logic district and described subscriber equipment access, and the frequency hop sequences side-play amount variable of at least two logic district described in calculating, specifically comprises:

Described in described frequency hop sequences device for planning calculates, the absolute value of difference between the frame number of the logic district of frame number minimum in the frame number of at least two logic district and described super community, obtains the first frame number poor;

Described frequency hop sequences device for planning is by the poor frequency quantity divided by described super community of described the first frame number, and the frequency hop sequences side-play amount variable using the remainder obtaining as described at least two logic district.

12. according to the method described in claim 9-11 any one, it is characterized in that, described frequency hop sequences device for planning is revised the frequency hop sequences side-play amount of described at least two logic district according to the frequency hop sequences side-play amount variable of described at least two logic district, the correction frequency hop sequences side-play amount that obtains described subscriber equipment, specifically comprises:

Described frequency hop sequences device for planning is the corresponding addition of frequency hop sequences side-play amount with described at least two logic district by the frequency hop sequences side-play amount variable of described at least two logic district, the correction frequency hop sequences side-play amount of at least two logic district described in acquisition.